Literature DB >> 27991918

Dissociation of muscle insulin sensitivity from exercise endurance in mice by HDAC3 depletion.

Sungguan Hong1, Wenjun Zhou1, Bin Fang2, Wenyun Lu3, Emanuele Loro4, Manashree Damle2, Guolian Ding1,5, Jennifer Jager2, Sisi Zhang3, Yuxiang Zhang2, Dan Feng2, Qingwei Chu2, Brian D Dill6, Henrik Molina6, Tejvir S Khurana4, Joshua D Rabinowitz3, Mitchell A Lazar2, Zheng Sun1,7.   

Abstract

Type 2 diabetes and insulin resistance are associated with reduced glucose utilization in the muscle and poor exercise performance. Here we find that depletion of the epigenome modifier histone deacetylase 3 (HDAC3) specifically in skeletal muscle causes severe systemic insulin resistance in mice but markedly enhances endurance and resistance to muscle fatigue, despite reducing muscle force. This seemingly paradoxical phenotype is due to lower glucose utilization and greater lipid oxidation in HDAC3-depleted muscles, a fuel switch caused by the activation of anaplerotic reactions driven by AMP deaminase 3 (Ampd3) and catabolism of branched-chain amino acids. These findings highlight the pivotal role of amino acid catabolism in muscle fatigue and type 2 diabetes pathogenesis. Further, as genome occupancy of HDAC3 in skeletal muscle is controlled by the circadian clock, these results delineate an epigenomic regulatory mechanism through which the circadian clock governs skeletal muscle bioenergetics. These findings suggest that physical exercise at certain times of the day or pharmacological targeting of HDAC3 could potentially be harnessed to alter systemic fuel metabolism and exercise performance.

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Year:  2016        PMID: 27991918      PMCID: PMC5540654          DOI: 10.1038/nm.4245

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  64 in total

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